Editors Note: This is still very much a work in progress so
please send in any corrections along with an appropriate reference to either
one of the Hudson
transcripts or from the standard scientific
literature. Please use exact quotes when referencing material,
paraphrasing is likely to lead to a double misunderstanding.

If you take issue with some claim being made then please remember that I'm
just trying to help make the claims of David Hudson and others clear so we can
evaluate and compare that information against available scientific and
esoteric knowledge (i.e., don't kill the messenger). So just send me the facts
and be sure to include references. Flames will be ignored as I'm not here to
argue anything with anyone. Send your correspondence to <webmaster@monatomic.earth.com>

What is the White Powder

The white powder is comprised of a group of elements in a monatomic state.
David
Hudson calls them "ORMEs" for
"Orbitally-rearranged monatomic elements." This is a new form (phase) of
matter with entirely different physical properties from normal elements.
Conventional chemistry texts have been of little value in explaining ORMEs.
Hudson explains the concept on his video tapes. Several
scientists have started studies of such matter although, to the author's
knowledge, none has yet developed a satisfactory theory explaining the
phenomena. To date, Hudson's discoveries have neither been conclusively
confirmed nor rebutted by independent investigators.

ORMEs are naturally occurring in certain volcanic soils dating back to a
geological event which occurred about 60 million years ago. Such soils are
present throughout the western United States. Soils which are considered rich in
these elements might contain up to six percent of this material. The remaining
94 percent or more of the material is ordinary dirt comprised mainly of silicon
compounds. Initial processing consists of removing the dirt to get the residue.
The residue comprises ORMEs or the white powder.

Because of the unique and valuable physical properties of ORMEs, there has
developed a desire to produce them from the metallic form of the elements. In
other words, there are reasons to convert metallic precious elements to ORMEs.
Hudson told the author that he had found ways to do this although he said that
the cost of doing so was prohibitively expensive. The reason for the high cost
is due principally to the high, per-ounce cost of most precious metals. The
process itself is not particularly expensive. But it is much less expensive to
start with natural material and to then simply remove the ordinary elements from
the natural material to get pure ORMEs matter.

Because the percentage of ORMEs in certain, particularly rich volcanic soils
is so high (up to 6 percent) in comparison with normal high-grade ore (up to
0.0015 percent), there is considerable interest by mining companies in the
technology required to convert ORMEs to their metallic form. The yield increases
by a factor of more than 4000. According to Hudson (and confirmed by an
independent source,) no mining company has figured out how to do this. Hudson
says the processing technique is highly proprietary and will not be disclosed.
An independent source in the mining industry says it's an impossibility and that
many investors have lost millions trying.

The Physics Behind It All

If you look in any physics or chemistry text book for an explanation of
what's going on here, you will look in vain. Nuclear physicists are just now
getting a glimmer of an idea of the phenomena as explained in recent issues of
such magazines as Scientific American and in
various scientific journals. Based on Hudson's videos and
transcripts I will attempt to explain the phenomena in layman's terms.
(Nuclear scientists should either bite their tongues in the following simplified
descriptions or correct the descriptions to suit their understanding of the
truth. I make no claims about being an expert in this field of science.)

The Bohr Model of the Atom

Neils Bohr explained many years ago the structure of an atom as having a
nucleus comprised of positively-charged protons and neutrally-charged neutrons
surrounded by a cloud of electrons. These are extremely tiny particles of
matter. If you were to compare an atom with the solar system, the nucleus would
be the sun and the electrons would be the planets.

There are two forces at work within the nucleus. One is the "strong" force
which is the glue that holds all the protons and neutrons together. The other
force is a "coulomb" force (electromagnetic in nature) which works to force the
protons to repel each other. Within the tiny geometry of a spherical nucleus,
the strong force is much stronger than the coulomb force, thereby holding the
nucleus together despite the weaker coulomb force which works to break apart the
nucleus. The strong force operates at short distances whereas the coulomb force
operates at longer distances. Thus, within the dimensions of an atomic sphere,
the strong force prevails, holding the nucleus together.

There are several bands of negatively-charged electrons which "rotate" around
the nucleus. There are the same number of electrons surrounding the nucleus as
there are protons within the nucleus. The outer band of electrons is called the
"valence" band. Electrons in this band are called valence electrons. These are
the electrons which are involved in chemical reactions. If the outer band of
electrons is "full", the element is quite stable. If the outer band is not
"full", the element is prone to interact with other elements such that the outer
band is "filled." The number of electrons in the outer valence band varies
depending upon the number of protons in the nucleus.

Neutrons and protons are roughly equivalent in size and weight whereas the
electron is so small as to be almost indistinguishable from pure energy with
virtually no discernible mass.

Typically, the atoms of metallic elements group themselves in sort of a
crystalline lattice network whereby each atom shares electrons with other atoms
of the same element. This is a relatively stable arrangement where the various
nuclei are held in position by the forces of their neighboring nuclei. All
metals share this characteristic but with a variety of crystalline
configurations. It is difficult to disturb this structure; hence the physical
rigidity of metals.

So far, we have not strayed from conventional chemistry and you can read the
above description (in perhaps more eloquent or obscure language) in any college
chemistry text. Now, we will start to move into new territory.

Phases of Matter

Classical science teaches us that the three phases of matter are gasses,
liquids, and solids (and the newer plasmas, Bose-Einstein condensates and liquid
crystals). Some solids crystallize into a lattice structure called metals. What
classical science does not teach us is that there is, in fact, another phase of
matter called monatomic. These monatomic materials have ceramic-like properties.

Nuclear physicists discovered in 1989 that the atoms of some elements exist
in microclusters. These are tiny groups of between two and several hundred
atoms. Most of the transition group precious metals in the center of the
periodic chart exhibit a monoatomic state. If you have more than a specific
number of these atoms in a microcluster, the atoms will aggregate into a lattice
structure with metallic properties. If you have fewer than that critical number
of atoms, that microcluster will disaggregate into monatomic atoms with ceramic
properties. Monatomic atoms are not held in position by electron sharing with
their neighboring atoms as are atoms in a classical lattice structure. The
critical number of atoms for rhodium is 9 and the critical number of atoms for
gold is 2.

The significance of this is that if you have two or more gold atoms in a
microcluster, it will exhibit metallic characteristics. However, if you have 9
or fewer atoms in a microcluster of rhodium atoms, the microcluster will
spontaneously disaggregate to become a group of monatomic rhodium atoms. You
might wonder why there is one equilibrium state at a certain deformation level
and a different equilibrium state at a different level of deformation. This is a
question for nuclear scientists to ponder.

It has been observed that the valence electrons of monatomic elements are
unavailable for chemical reactions. This means that monatomic atoms are
chemically inert and have many of the physical properties of ceramic materials.
Because the valence electrons are unavailable, it is impossible to use standard
analytical chemistry techniques to identify a monatomic element.

After reading the above statement, one observer commented that the statement
is not altogether true. He says: "There is a sort of shadow chemistry which
still works on monoatomic elements. Hudson speaks of the same color changes in
monatomic chemistry as occur in metallic chemistry. From alchemical
understanding, I suspect that similar chemical reactions still occur but at a
much reduced rate. In other words, a chemical process which takes a few days
with metallic chemistry may take months or years using this "shadow chemistry."
For the sake of consistency, we might want to call this "shadow chemistry"
"alchemy."

What the observer says may be true but he doesn't explain the physical
mechanism at work here. Are the valence electrons unavailable for reactions in
monatomic elements or not? Also, simply assigning a name to a phenomena doesn't
explain the phenomena.

These are very recent discoveries and the full implications have yet to be
evaluated by the scientific community. You won't find this in textbooks yet.

In general, a metallic element is physically stable and is a relatively good
conductor of both heat and electricity and is usually chemically active. (Metals
typically rust and/or corrode.) To the contrary, monatomic atoms of the same
element behaves more like a ceramic in that they are generally poor conductors
of both heat and electricity and are chemically inert. In addition, according to
Hudson, monatomic elements exhibit the characteristics of superconductors at
room temperature.

Russian scientists at the Institute of Mineralogy, Geochemistry, and Crystal
Chemistry of Rare Earth's in Kiev explicitly state in their literature that
atoms in lattice structures are metallic in nature and that these same atoms in
the monatomic state are ceramic in nature. However, Dr. Kogan of the institute
does not support all of Hudson's findings as being scientifically valid. It
would be worthwhile if we could obtain a detailed critique of Hudson's work from
that institute.

Monatomic atoms have been observed to exist in all the heavy elements in the
center of the periodic table. These are the elements which have "half-filled"
bands of valence electrons and include the following elements. Their atomic
numbers are given in parenthesis (the atomic number represents the number of
protons in the nucleus.) Ruthenium (44), Rhodium (45), Palladium (46), Silver
(47), Osmium (76), Iridium (77), Platinum (78), and Gold (79). Other metallic
elements in the same part of the periodic table have also been observed in
microclusters.

Because the atoms of monatomic elements are not held in a rigid lattice
network, their physical characteristics are quite different from atoms which are
locked in the lattice. Thus, it is the grouping of atoms which defines the
physical characteristics of the element; not just the number of neutrons and
protons in the nucleus as previously believed. If you don't have a lattice
network, you don't have a metal even though the atoms of the two forms of matter
are identical!

The implication here is that there is an entirely new phase of matter lurking
about the universe. This form (phase) of matter is comprised of monatomic
elements; a heretofore unknown form (phase) of matter. They have remained
unknown for so long because they are inert and undetectable by normal analytical
techniques.

This might be nothing but a scientific curiosity except for the fact that
Hudson now claims that a relatively large amount of this previously undiscovered
monatomic matter seems to exist in the earth's crust.

Limitations of Analytical Chemistry

How could it be that a small percentage of the earth's matter could be
comprised of material which heretofore has been completely undiscovered? It has
to do with the theory of analytical chemistry. None of the detection techniques
of analytical chemistry can detect monatomic elements. They can only detect
elements by interacting with their valence electrons. Because the valence
electrons of monatomic atoms are unavailable, the atoms are unidentifiable. To
detect a monatomic element requires that you first convert it from its monatomic
state to its normal state to allow the element to be detected with conventional
instrumentation. As a result, this phase of matter has existed as a stealth
material right under the noses of scientists without detection until very
recently.

Some observers claim that there should be reliable detection techniques for
monatomic matter but you have to know what you are looking for to make use of
the techniques. If you do not suspect that monatomic matter exists, it is
unlikely you will accidentally find it.

Peculiarities of Monatomic Elements

The monatomic form of an element exhibits physical characteristics which are
entirely different from its metallic form. These differences are currently being
investigated by nuclear physicists so it isn't possible to make an exhaustive
list of the differences. A few of the differences will be noted.

Classical literature states that the white powder has a fluorescent-like
glow. Hudson says that this powder behaves as a superconductor at room
temperature, giving it very interesting properties. Because it is a
superconductor, it tends to "ride" on the magnetic field of the earth, giving it
the powers of levitation. It has been found to be very difficult to determine
the specific gravity of monatomic elements because the weight varies widely with
temperature and the magnetic environment. Under some circumstances, monatomic
elements weigh less than zero! That is, a container full of monatomic matter
could be observed to weigh less than the empty container.

These elements have characteristics akin to porcelain in that they do not
chemically react with anything and are very stable, durable and heat resistant.
Some of the potential applications of monatomic elements are discussed later in
this report.

Normal nuclei are roughly spherical in shape, held in place by the
overwhelming strong nuclear force, but the nuclei of monatomic elements with
only partially filled outer orbital's in the nucleolus become deformed when the
lack of dipole-dipole interactions with surrounding nuclei causes the protons
and neutrons in the partially filled orbital's to be excluded introducing a
wobble in the nucleolus.

This deformity increases the particle distance thereby weakening the strong
nuclear force (which falls off very rapidly) and allows the electromagnetic
repulsion between the protons to begin to overshadow it. So the nuclei of these
atoms are more unstable than normal nuclei.

If the deformity exceeds a 2:1 ratio the nuclei is classified as
superdeformed and can spontaneously
fission (the naturally occurring, and therefore stable, monatomics probably
do not have superdeformed nuclei).

Not much is known about the circumstances which contribute to this
spontaneous transmutation. About all that can be said at this early date is that
spontaneous transmutation has been observed to exist. . It is no longer a matter
of whether transmutation does or does not exist but under what circumstances
such transmutation occurs.

Specific Gravity

Because monatomic atoms are not held in place by a rigid lattice structure,
the coulomb forces cause the atoms to distribute themselves much further apart
than their metallic counterparts. Thus, the physical material appears as a
fluffy powder. For example, the specific gravity of metallic iridium is about 22
whereas the specific gravity of monatomic iridium is about 3 - a difference of
greater than 7 times. One way to view this phenomena is to examine popcorn. In
the unpopped state, popcorn is a rather dense material. However, if you were to
heat the kernels, the kernels dramatically change shape and texture to that of
popped popcorn which has a much lower density than the original kernels.

It has been experimentally observed that monatomic atoms distribute
themselves in a very orderly manner in a wave pattern, similar to that of a
lattice pattern except at greater distances. This would imply that these atoms
have a wave-form of energy associated with them and they arrange themselves in a
very definite pattern determined by that energy. Because it has not been
previously observed that the coulomb force has wave characteristics, this
discovery might suggest that there is yet a third force, as yet unidentified,
within the nucleus. Either that or the nature of the coulomb force will have to
be redefined to fit the new evidence. As you might observe, these discoveries
are on the cutting edge of nuclear physics.

It is truly amazing that nature can offer two identical atoms (identical
number of protons, electrons, and neutrons) with such different physical
characteristics. The only difference between the two is the manner in which
groups of atoms are bonded together. Perhaps the popcorn analogy is quite
appropriate. Popped corn and kernel corn are chemically identical yet they have
quite different physical characteristics. Much more will be discovered about
this in the near future as the physicists continue to pursue these mysteries.

Spiritual Powers of the White Powder

Hudson said that the naturally-occurring white powder is comprised of all the
precious ORMEs in rather fixed proportions. (At least from his ores.) He stated
that each ORME affects a different gland (seal) of the body. Ancient literature
says that the white powder of gold effects the seventh seal (the pineal gland),
other white powders effect other seals. Hudson believes that proper spiritual
usage would require that you take all the elements in their naturally-occurring
proportions. That's what the Egyptians did.

Hudson pointed out that the ancient Egyptian literature only discusses the
white powder of gold. Yet, the powder which was found in the pyramids contained
all the monatomic elements in the expected percentages. The dominant element was
rhodium. He believes that the reason that the Egyptians only mentioned gold was
because they were simply unaware of the other elements. They knew about iron,
gold, silver, and copper. If you were to chemically analyze monatomic rhodium,
you would believe that you had an iron compound.

Assay Analysis

For each ton (2000 pounds) of ore from his sources, Hudson projects the
following yields. Note: This analysis varies among Hudson's various
presentations. This data is a rough composite of them all. If more exact numbers
can be offered, please do so.

Because Hudson says that monatomic gold is convertible to metallic gold, the
yield of gold alone from his "ore" is 11 ounces per ton compared with 0.5 ounces
per ton from a "rich" ore. That is an improvement of 22X. He says that the major
gold mining companies are extremely interested in Hudson's processing techniques
and are trying to duplicate his results. Hudson himself is not interested in
converting the white powder to the metallic form. His principal concern lies
with higher-valued industrial applications. Hudson would prefer that the
precious metals market maintain its high prices to justify the royalties which
will be charged for the white powder. Contrarily, an independent metals
scientist claims it is theoretically impossible to convert commercial quantities
of monatomic elements to their metallic forms. Minute quantities can be
converted under the exacting conditions of an analytical laboratory but the
process cannot be scaled up enough to be of commercial value.

Precious Metals Bullion Market

Hudson stated that he intends to focus all his attention on the monatomic
forms of the precious elements. Although he knows how to convert to the metallic
state, he intends to avoid doing it. It is far riskier and costly to store and
transport metallic gold than it is to store and transport the monatomic state of
gold. There is no threat that Hudson will collapse the precious metals market by
flooding it with cheap bullion.

The annual world-wide production of gold is about 240,000 ounces at a cost of
about $300 per ounce (selling for about $400.) The consumption is about 300,000
ounces. This might suggest that the price should rise but the central banks
(Russia in particular) have been unloading their inventories, keeping prices
steady for the last several years. ($350 to $415.) A slowing of selling by the
central banks and an increasing demand for metallic gold from India has caused a
recent jump in the price of gold to above $415 for the first time in a decade.
According to Hudson, the annual capacity of his prototype plant would be about
3300 ounces at an average cost of about $7.50 per ounce. This would hardly be
enough gold to impact the world bullion market.

Hudson says that gold mining interests are extremely interested in his
production techniques which reduces the cost of producing gold from about $300
per ounce to below $10 per ounce. If they ever figure out how to do it
themselves, there would be a tendency for them to flood the market with this new
supply, driving down the world price of gold bullion. But, as already stated,
metals scientists are not rushing to endorse Hudson's claims.

Potential Industrial Applications for the White Powder

The peculiar nature of ORMEs has allowed them to remain undetected throughout
the industrial revolution. As a result, virtually nothing is known about their
properties. Only with their recent discovery by Hudson has any attention been
paid to this entirely new phase of matter.

It is expected that further research into ORMEs will reveal a new world as
rich and rewarding as the chemical world with which we are already familiar.
Just by scratching the surface a bit, Hudson says that investigators have found
that ORMEs can significantly improve many existing products and can bring forth
many new, as yet undreamed super products.

Just a few examples of what investigators have already found is that the
white powder of rhodium can increase the blade life in high-temperature turbines
by an order of magnitude. This is because ORMEs are chemically inert and can
withstand very high temperatures without degradation. In the area of fuel cells,
they offer the promise of making homes and businesses energy self-sufficient.
They can even power motor vehicles without the use of fossil fuels. In the
chemical industry, they have been found effective in doubling the efficiency of
chlorine production. Because ORMEs are also superconductors at room temperature,
we can expect new revolutions in the power generation and computer fields. Just
a bit of research will undoubtedly reveal hundreds of other exciting industrial
applications for this new phase of matter.

Turbine Blades

The white powder of rhodium/iridium significantly extends the life of turbine
blades in high-temperature applications (such as in jet engines.) The difference
is significant enough that whichever manufacturer has the material (whether it
be General Electrical, Pratt & Whitney, or Rolls Royce) that manufacturer
will dominate the turbine engine market. (There is an order of magnitude
difference in blade life.) Hudson says he is currently working with all of them
to select the one with whom he will work. He will then license the material to
them in return for a royalty fee based on the number of hours each engine
operates. This has a huge potential market.

Fuel Cells

The white powder of rhodium/iridium is the ideal material from which to make
fuel cells. The cost of fuel cells is currently prohibitively expensive because
of the cost of metallic rhodium (Hudson quoted the price of rhodium to be
greater than $1000 per ounce. I recently got a quote from a strategic metals
dealer for a small quantity at $300 per ounce for "industrial-grade" metallic
rhodium. I don't know what that means.)

Hudson intends to license the material to the fuel cell manufacturers
(General Electric and/or Westinghouse) for a royalty fee based on the number of
kilowatt hours that each fuel cell produces. The cost of fuel cells will thus
drop to become commercially-viable products and Hudson will earn his royalty
fees forever. Fuel cells can become a standard part of every home and business,
making them energy independent. The losers will be the oil companies and the
electric utilities. Hudson believes that within ten years, oil will become
obsolete for heating and transportation purposes. Fuel cells will even be used
to power automobiles and other vehicles. Batteries won't be needed except for
startup purposes.

By charging a royalty based on the value of the product produced
(electricity,) the consumer will be much more inclined to use fuel cells as a
source of electric power as long as the cost per kilowatt hour is less than the
current commercial cost of power. Because of Hudson's extremely low cost of
product, he can adjust the royalty fee accordingly to achieve that result.
Anyone who must pay the market value for rhodium ($300 per ounce) would be
priced out of the market. According to Hudson, it has been cost, not technology,
which has thwarted the commercial development of fuel cells for the commercial
production of electrical power. Thus, Hudson's pricing strategy should result in
an explosion in the fuel cell market.

Production of Chlorine

With the new environmental regulations in place, about 18 percent of the
entire electrical production capacity of the United States is devoted to the
production of chlorine from seawater. Much of the power produced by the
hydroelectric power plants in Washington is shipped to California for the
production of chlorine. The chlorine so produced is used as a water purifier by
municipalities. It has been found that by using the white powder of
rhodium/iridium in the electrodes, the efficiency of the process can be doubled.
Hudson intends to license this material to chlorine producers in return for a
percentage of their savings. This could amount to billions of dollars in savings
in electrical power.

By saving 9 percent of the total electrical power generated in the United
States and by transferring much of the remaining demand for power over to fuel
cells, the need for nuclear power stations could be eliminated. Also, many of
the dirty coal-fired power stations could be retired resulting in significant
environmental improvements. Further, the need for long-distance transmission of
power could be reduced. Most of the remaining power requirements could be met
with clean-burning natural gas power stations and from hydroelectric sources.
(Some might argue that hydroelectric plants are not environmentally friendly
either but they are certainly friendlier than some of the alternate sources of
power. Regardless, reducing the total amount of power generated by 9 percent is
certainly a step in the right direction.)

Medical Applications

There is reason to believe that the white powder can be effective in the
treatment of both cancer and AIDS. Clinical tests are currently underway. There
are physiological reasons to believe these claims. It has been observed that
ORMEs work to repair damaged DNA strands in the human body. (See further
information on this subject in any of Hudson's video presentations.)

Superconductivity

The white powder is a superconductor at room temperature. Heretofore,
superconductivity has only been achieved at extremely low temperatures [164°K is
the current record]. The applications for room-temperature superconductors will
be explored by Hudson on a broad front.

The implications for the power generation and computer technologies are
astounding. Using superconductors, electrical power can be transferred
coast-to-coast with no losses. Computer chips can be packed tighter by a factor
of 1000 if no heat were generated. The implications for further dramatic
miniaturization of computers is staggering.

Radar Diffusion

It has been noted that ORMEs do not reflect radar signals coherently. They
diffuse the signals in such a way that the material is undetectable by radar.
The only structural metal which functions similarly is boron which currently has
wide applications in the fabrication of stealth aircraft, at great cost. Boron
structures are fabricated with extremely tedious gas diffusion techniques,
making stealth aircraft astronomically expensive. The fabrication techniques
using monatomic elements would be much less expensive and would be more
effective than boron. With significantly reduced costs, many other applications
for a radar diffusion material could become practical.

Boron is also the material of choice to build the structural members of space
stations - again at great cost. There is reason to believe that this job could
perhaps be done better and at much less cost using monatomic elements.

Reentry Vehicle Heat Shield

Missile reentry vehicles make use of complex carbon-impregnated ceramic
ablation materials to protect the payload during reentry into the earth's
atmosphere. Hudson pointed out that the use of 6 percent of monatomic iridium in
the heat shield material would dramatically improve its performance.

Nuclear Radiation Shield

It has been experimentally noted that a box made of ORMEs can very
effectively contain nuclear radiation. Thus, nuclear wastes can be permanently
stored safely in containers made of the white powder.

Levitation

Several high-speed trains are currently in use in Japan which are based on
magnetic levitation to reduce friction. If you produce a very strong magnetic
field in opposition to the earth's magnetic field, you can cause an object to
levitate. Because ORMEs are natural superconductors, they can levitate without
the need to produce a strong magnetic field. There are many implications for the
transportation industry.

Editors Note: I believe that current trains levitate over
magnetic fields produced in the track, not against the Earths magnetic field
which I believe would take an astronomical magnetic field. However, there are
still many advantages to using a very high-temperature superconductor for this
purpose.

Production Methods

Although the exact production techniques for the white powder involve 14
discrete steps, each of which is proprietary and will not be revealed, Hudson
did make a few general comments concerning the production methods.

He said the ore is quite plentiful and easily identifiable. It is part of a
volcanic eruption which occurred about 60 million years ago and it is readily
available in all the western states. He will get his own ore from his own farm
near Phoenix. Most of the ore is similar in composition so there isn't much
concern about variations in quality.

The first step is to chemically remove all non-monatomic elements such as
dirt. This is reasonably easy to do, Hudson says, because they are all reactive
with one solvent or another. The end result is a pure, naturally-occurring white
powder with a rather definite percentage of each precious element. This is the
powder which will be made available to the members of the spiritual foundation.
In response to a direct question by the author, Hudson stated that he did not
intend to do any separation on any of the material which would be delivered to
members of the foundation. Each of the elements, including gold, would be
included in the deliverable material in their naturally-occurring proportions.
He was further pressed on this point with the question: "Would you consider
delivering pure monatomic gold to a member of the foundation? The answer was
"no." Pure monatomic gold would only be delivered under royalty agreements to
industrial customers. (This is contrary to what Hudson has stated on earlier
videos.)

This is an important issue because classical literature only discusses the
white powder of gold. It doesn't talk about the white powder of rhodium,
iridium, palladium, etc. If the material being delivered by Hudson is not the
white powder of gold, then the question comes up: "What is it?" Hudson responded
that the materials are identical; the old scribes were simply unaware of all the
other monatomic elements riding along with the gold in their white powder.

For industrial purposes, the white powder needs to be separated into the
individual elements. Hudson says he has methods to do this for all of the
precious elements without ever converting them to the metallic state. He says
that gold is the simplest to separate; it is hardest to separate rhodium and
iridium from each other. Because there is no particular benefit to separate
these two, it is his intention to skip that step and provide the two as a pair
unless some particular customer is willing to pay for such a separation. Pure
monatomic rhodium or iridium would be special-order items.

As an interesting aside, Hudson noted that Moses had a smelter at Mt. Sinai
to heat volcanic ash to 450 degrees Celsius, thereby driving off monatomic atoms
of gold which were then collected in the form of the white powder of gold. It
was this white powder which comprised manna, the food of the Gods, which fed the
Israelites for many years. Hudson said that gold is the easiest of the monatomic
elements to collect this way. Most volcanic ash yields several ounces of gold
per ton, he said. The author has been unable to find anyone in the mining
industry who agrees that volcanic ash contains anywhere near that much gold,
metallic or monatomic.

Hudson emphasized that there is never any need to convert the monatomic
elements to the physical metallic state. He does not intend to do so due to the
security problems associated with precious metals bullion. Thieves don't know
what to do with the white powder - it has no market value. Gold bullion, on the
other hand, is more valuable than money. Not only that, but precious metals
cannot be transported across international borders without extensive permits and
explanations.

Others disagree with Hudson's opinion that the white powder will have no
market value. Although he intends to give it at no charge to members of the
foundation and to license it to selected industrial customers under long-term
royalty agreements, it has been pointed out that a flourishing black market for
the material will probably develop shortly after the material becomes available.
Perhaps Hudson will not place a value on it but others will. The author will
leave this point for speculation by the reader.

Spiritual Qualities

Although Hudson did make brief comments about the spiritual qualities of the
white powder, we turn instead to the classic literature and to contemporary
channellers to learn more about the spiritual qualities of the white powder. It
has spiritual effects due to the physical effects of the white powder on each of
the seven seals in the body. These are the seven spiritual centers. When all
seven seals are open, the body takes on "Christ-like" characteristics.

A summary of some of the spiritual qualities that are imparted on anyone who
takes the white powder internally follow. This list has been derived from a
number of classical sources, both written and channelled, and has yet to be
confirmed or rebutted by contemporary scientists. Hudson categorically states
that his white powder is the same as that found in the ancient pyramids although
he offers no independent scientific verification of his statement. Incidentally,
contemporary channellers agree that Hudson's material is the same as that found
in the pyramids.)

Some of the literature which discusses the white powder include the Egyptian
Book of the Dead, the Bible, and The Red Lion. The spirit entity known as Ramtha
teaches about about the white powder in his contemporary School of Enlightenment
in Yelm, Washington. It has been variously known throughout the ages as "the eye
of Horus, manna, the holy grail, and the elixir of life.

Restoration of Youth and Vitality

Opening of the Third Eye

Opens the Gateway to the Next Dimension

Allows for the Instant Manifestation of Thought

Lifts the Veil from Prior Lives

Offers Extraordinary Knowingness

Enables Levitation

Enables Ascension

It is said in ancient literature that anyone who uses the white powder will
develop a halo about his body.

Much channeled information is available about each of these but for the
purposes of this report, they are simply listed.

Potential consumers of the white powder for spiritual purposes are encouraged
to first read The Red Lion to become more aware of the potential consequences. Casual consumption of the white powder is not recommended. Do not view it as a
"cure-all" patent medicine. The long-term side effects are truly awesome. Some
people who are taking "look-alike" white powder products are not experiencing
these side effects because the "look-alike" products are not the "real thing." If they were the "real thing", these people would be having some rather
outrageous experiences.

The White Powder and the Food and Drug Administration

Hudson told the author that he will never sell the white powder for medical,
curative, or healing purposes. It will only be given at no charge to members of
the Science of the Spirit Foundation for spiritual purposes only. The
Constitution of the United States protects religious freedom in this country so
the spiritual purposes of the white powder do not come under the purvue of the
FDA.

Editors Note: Tell that to the Native American Indians.

No medical claims will ever be made for the material. It is not a medicine,
tonic, vitamin, or any other medically-related product and will not be promoted
as such. It will have no established market value. You will not be able to buy
it in pharmacies, health food stores, or any other commercial establishment. It
might become available to non-members from members of the foundation who may
wish to share their supply in non-commercial transactions. (Others have
suggested that there will be a flourishing black market for the material
involving members of the foundation but such activity will be unrelated to
Hudson.)

Controversy

Some independent scientists scoff at Hudson's discoveries. At the very least,
they vehemently disagree with his stated theories as being contrary to known
scientfic principles. With due respect to these scientists, it might be
appropriate to also solicit other independent scientific opinions before
reaching any definitive conclusions about the validity of Hudson's explanations.
It wouldn't be the first time that the established scientific community
mislabelled a great discovery as bogus.

What is left open to question is whether Hudson's white powder does indeed
have the properties - both physical and metaphysical - that he claims for it. He
may have the "right stuff" but the "wrong explanation." Because so little of the
material is currently available for study, it isn't possible for any qualified
independent scientist to even hazard a guess as to whether it is or is not the
"right stuff."

If it is found that the material is indeed the "right stuff" but that
Hudson's explations are faulty, then it would be very worthwhile for someone to
spend the time and effort required to postulate a "correct" theory. A Nobel
Prize would likely be in the offing for the first scientist who correctly
explains these unusual phenomena.

If it is found that both the material and the explanations are bogus, then we
should all pack up and find useful employment elsewhere.

A note about the word "Monatomic''Unabridged dictionaries allow
the word to be spelled ``monatomic'' or ``monoatomic.'' As is convention, the
first word listed is the preferred spelling. Six college chemistry texts
reviewed by the author used the spelling ``monatomic.'' The Houghton-Mifflin
spelling dictionary in many computer word processors uses the spelling
``monatomic.'' However, Hudson personally uses the ``monoatomic'' spelling.
Therefore, much of the literature related to Hudson follows Hudson's lead.
However, for the purposes of this document, the ``monatomic'' spelling was
used to be more in accordance with conventional usage.